The best location for a project like Ayikudi(Jayajyoti) 6 MW wind project could have a near constant flow of non-turbulent wind throughout the year, having a minimum chance of abrupt effective bursts of wind. An essential aspect of turbine siting is moreover admission to local demand or transmission capaTirunelveli.

Before building, Ayikudi(Jayajyoti) 6 MW wind project was most likely screened on the basis of a wind atlas, and validated with wind measurements. Meteorological wind data alone is usually not adequate for precise siting of a large wind power project.

Site data around Tirunelveli is a major factor in the ‘development’ decision Winds around Tirunelveli are analysed for over a year or so plus the development of detailed maps. Only then are wind turbines installed.

Altitude would also possess a part to playwithin a project like Ayikudi(Jayajyoti) 6 MW wind project. This is due to drag The increase in velocity with altitude is most dramatic near the surface and is impacted by geography, surface roughness, and upwind hurdles such as trees or buildings. Velocity grows with altitude and it is more evident near land and is transformed by topography, surface and obstructions.

Typically, the increase of wind speeds with escalating elevation follows a wind profile power law, which forecasts that wind speed rises proportionately to the seventh root of altitude. Increasing the altitude of a turbine, then, boosts the expected wind speeds by 10%, and the expected power by 34%.

The distance of 7x Rotor Diameter is placed between each turbine, ie they are spaced out so they really don’t affect one another. However this might not be the case in hilly areas.

At a substation, it medium-voltage electric energy is elevated in voltage with a transformer for connection to the high voltage transmission system. Building of a land-based wind farm requires installing of the collector system and substation, and perhaps roads to each and every turbine site.